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Date May 2014 Marks available 3 Reference code 14M.2.sl.TZ2.8
Level SL only Paper 2 Time zone TZ2
Command term Find Question number 8 Adapted from N/A

Question

The number of bacteria in two colonies, \(\rm{A}\) and \(\rm{B}\), starts increasing at the same time.

The number of bacteria in colony \(\rm{A}\) after \(t\) hours is modelled by the function \(\rm{A}(t) = 12{{\text{e}}^{0.4t}}\).

Find the number of bacteria in colony \({\text{A}}\) after four hours.

[2]
a.

Find the number of bacteria in colony \({\text{A}}\) after four hours.

[3]
b.

How long does it take for the number of bacteria in colony \({\text{A}}\) to reach \(400\)?

[3]
c.

The number of bacteria in colony \({\text{B}}\) after \(t\) hours is modelled by the function \(B(t) = 24{{\text{e}}^{kt}}\).

After four hours, there are \(60\) bacteria in colony \({\text{B}}\). Find the value of \(k\).

[3]
d.

The number of bacteria in colony \({\text{B}}\) after \(t\) hours is modelled by the function \(B(t) = 24{{\text{e}}^{kt}}\).

The number of bacteria in colony \({\text{A}}\) first exceeds the number of bacteria in colony \({\text{B}}\) after \(n\) hours, where \(n \in \mathbb{Z}\). Find the value of \(n\).

[4]
e.

Markscheme

correct substitution into formula     (A1)

eg     \(12{{\text{e}}^{0.4(0)}}\)

\(12\) bacteria in the dish     A1     N2

[2 marks]

a.

correct substitution into formula     (A1)

eg     \(12{{\text{e}}^{0.4(4)}}\)

\(59.4363\)     (A1)

\(59\) bacteria in the dish (integer answer only)     A1     N3

[3 marks]

b.

correct equation     (A1)

eg     \(A(t) = 400,{\text{ }}12{{\text{e}}^{0.4t}} = 400\)

valid attempt to solve     (M1)

eg     graph, use of logs

\(8.76639\)

\(8.77\) (hours)     A1     N3

[3 marks]

c.

valid attempt to solve     (M1)

eg     \(n(4) = 60,{\text{ }}60 = 24{{\text{e}}^{4k}}\), use of logs

correct working     (A1)

eg     sketch of intersection, \(4k = \ln 2.5\)

\(k = 0.229072\)

\(k = \frac{{\ln 2.5}}{4}\) (exact), \(k = 0.229\)     A1     N3

[3 marks]

d.

METHOD 1

setting up an equation or inequality (accept any variable for \(n\))     (M1)

eg     \(A(t) > B(t),{\text{ }}12{{\text{e}}^{0.4n}} = 24{{\text{e}}^{0.229n}},{\text{ }}{{\text{e}}^{0.4n}} = 2{{\text{e}}^{0.229n}}\)

correct working     (A1)

eg     sketch of intersection, \({{\text{e}}^{0.171n}} = 2\)

\(4.05521\)   (accept \(4.05349\))     (A1)

\(n = 5\)   (integer answer only)     A1     N3

METHOD 2

\(A(4) = 59,{\text{ }}B(4) = 60\)   (from earlier work)

\(A(5) = 88.668,{\text{ }}B(5) = 75.446\)     A1A1

valid reasoning     (R1)

eg     \(A(4) < B(4)\) and \(A(5) > B(5)\)

\(n = 5\)   (integer answer only)     A1     N3

[4 marks]

e.

Examiners report

[N/A]
a.
[N/A]
b.
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c.
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d.
[N/A]
e.

Syllabus sections

Topic 2 - Functions and equations » 2.6 » Exponential functions and their graphs: \(x \mapsto {a^x}\) , \(a > 0\) , \(x \mapsto {{\text{e}}^x}\) .
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